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6219032 
Journal Article 
Effects of hydrogen chloride addition to the direct reaction of methylene chloride with elemental silicon 
Ho Yeon, S; Nam Jung, I; Ryul Yoo, B; Soo Han, J 
1996 
Yes 
Journal of Organometallic Chemistry
ISSN: 0022-328X
EISSN: 1872-8561 
516 
91-95 
Direct synthesis of bis(chlorosily)methanes has been reinvestigated by reacting elemental silicon simultaneously with methylene chloride and hydrogen chloride in the presence of copper catalyst using a stirred reactor equipped with a spiral band agitator at a carefully controlled temperature between 260 and 340°C. Bis(dichlorosily)methane and (dichlorosily)(trichlorosily)methane were obtained as the major products and bis(trichlorosily)methane as a minor product along with trichlorosilabe and tetrachlorosilane derived from the reaction between elemental silicon and hydrogen chloride. The decomposition of methylene chloride was suppressed and the production of polymeric carbosilanes reduced by adding hydrogen chloride to the methylene chloride reactant. The optimum mixing ratio of methylene chloride and hydrogen chloride for the direct synthesis of bis(silyl)methanes was 1:4. The deactivation problem of elemental silicon owing to decomposition of methylene chloride and polycarbosilanes was eliminated. Cadmium was a good promoter for the reaction, while zinc was found to be an inhibitor for this particular reaction. 
Silicon; Direct synthesis